Quantum Correlation Dynamics Subjected to Quantum Reset-Driven Environment
- URL: http://arxiv.org/abs/2602.09348v2
- Date: Wed, 11 Feb 2026 13:27:41 GMT
- Title: Quantum Correlation Dynamics Subjected to Quantum Reset-Driven Environment
- Authors: R. Jafari, Ali Asadian, Mehdi Biderang, Alireza Akbari,
- Abstract summary: We study two central qubits interacting with a transverse-field Ising chain that serves as their environment.<n>The environment is driven linearly in time across its quantum critical points (QCPs) and, during the evolution, is subjected to quantum reset (QR)<n>We investigate how such QR modifies the dynamics of entanglement and quantum discord between the qubits.
- Score: 0.43748379918040853
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: We study two central qubits interacting with a transverse-field Ising chain that serves as their environment. The environment is driven linearly in time across its quantum critical points (QCPs) and, during the evolution, is subjected to quantum reset (QR), where it is returned at random times to its initial state. We investigate how such QR of the environmental spin chain modifies the dynamics of entanglement and quantum discord between the qubits. Our results show that in the strong-coupling regime, entanglement and discord exhibit pronounced revivals within the interval bounded by the Ising QCPs, but these revivals diminish as the QR rate increases. In contrast, weak coupling leads to a monotonic reduction of quantum correlations. Numerically, we find that the revival peaks of concurrence decay and scale exponentially with the QR rate, while quantum discord shows no clear scaling behavior. In the weak-coupling regime without QR, the correlations decay monotonically as the driven field crosses the second QCP. When QR is applied, however, both entanglement and discord undergo oscillatory suppression, with the oscillation period increasing as either the QR rate or the ramp time scale is reduced.
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